Membrane Electrodes. Several types
|
|
- Edwina Newton
- 6 years ago
- Views:
Transcription
1 Membrane Electrodes Electrical connection Several types - Glass membrane electrode - Liquid membrane electrode - Solid State membrane electrode - Permeable membrane electrode seal 0.1 M HCl Filling solution Ag wire coated with AgCl Thin glass membrane
2 Combination ph Electrode
3 Liquid Membrane Electrodes Calcium Electrode is good example Liquid ion exchanger water immiscible organic compound with phosphate groups selective for Ca 2+ in a hydrophobic membrane Reservoir filled with excess ion exchanger (red) to wet membrane Ag wire Filling solution i.e., fixed CaCl 2 Ag/AgCl Ion exchanger
4 Solid State Membrane Electrodes Ag wire Filling solution with fixed [Cl-] and cation that electrode responds to Ag 2 S Ag +, S 2- Ag 2 S + CuS Cu 2+ Ag Solid state membrane 2 S + CdS Cd 2+ (must be ionic conductor) Ag 2 S + PbS Pb 2+ Ag/AgCl Solid State Membrane Chemistry Membrane LaF 3 AgCl AgBr AgI Ion Determined F -, La 3+ Ag +, Cl - Ag +, Br - Ag +, I -
5 Permeable Membrane Electrodes Gas Permeable Membrane Electrodes Gas Sensing Electrodes Membrane that is permeable to a gas (e.g., NH 3 ) is the key component of electrode Membrane is part of a small chamber which encloses a filling solution with a ph electrode housed inside Filling solution has fixed [NH 4+ ] which responds to changes in [NH 3 ] passing membrane according to NH 3 + H 2 O NH 4+ + OH -
6 ph Electrode Bulb Styles
7 Gas Permeable Membrane Electrodes - Electrode immersed in test solution -NH 3 diffuses through membrane -NH 3 in test solution equilibrates with NH 3 in filling solution NH 3 + H 2 O NH 4+ + OH - ph electrode [NH 4+ ][OH - ] K b = [NH 3 ] K b [OH - ] = [NH 3 ] [NH 4+ ] ph = 14 poh = pnh 3 Hydrophobic membrane - gas permeable (yellow) Glass membrane (blue) Filling solution (gray)
8 Diagram of CO 2 gas sensing probe showing internal Reference electrode Reference electrode must be located behind membrane in the filling solution because membrane is hydrophobic
9 Commercial Gas Sensing Electrodes
10 Enzyme Electrode e.g., Urea Electrode An electrode sensitive to urea can be prepared by immobilizing a thin layer of the enzyme urease on the surface of the NH 3 electrode O H 2 N-C-NH 2 + H 2 O 2 NH 3 + CO 2 ph electrode - Urea comes in contact with urease immobilized on the surface - Urea is broken down to NH 3 & CO 2 in this enzyme layer -NH 3 diffuses through membrane to give response Hydrophobic membrane - gas permeable (yellow) Enzyme layer Glass membrane (blue) Filling solution (gray)
11 Potentiometry - Conclusion Electrochemical (galvanic) cell with essentially no current flow Requires a solution that is conductive i.e., contains a supporting electrolyte Laboratory ph/millivolt meters should be capable of measuring mv This corresponds to 0.4 x n % uncertainty Electrodes measure activity not concentration Measure free or uncomplexed ions not total
12 Voltammetry Methods based on an electrolytic cell Apply potential or current to electrochemical cell & concentrations change at electrode surface due to oxidation & reduction reactions Can have 2 or 3 electrodes Stirred or unstirred solution Measure current or voltage
13 In all electrochemical methods, the rate of oxidation & reduction depend on: 1) rate & means by which soluble species reach electrode surface (mass transport) 2) kinetics of the electron transfer process at electrode surface (electrode kinetics), which depend on: a) nature of the reaction b) nature of electrode surface c) temperature (we don t have much control over #2)
14 Mass Transport or Mass Transfer 1) Migration movement of a charged particle in a potential field generally bad (important for conductance & electrophoresis) In most cases migration is undesirable and can be eliminated by adding a 100 fold excess of an inert electrolyte (i.e., electrochemically inert not oxidized or reduced) Inert electrolyte does the migrating, not the analyte
15 Mass Transport or Mass Transfer 2) Diffusion movement due to a concentration gradient. If electrochemical reaction depletes (or produces) some species at the electrode surface, then a concentration gradient develops and the electroactive species will tend to diffuse from the bulk solution to the electrode (or from the electrode out into the bulk solution)
16 Voltammetry Methods based on an electrolytic cell Apply potential or current to electrochemical cell & concentrations change at electrode surface due to oxidation & reduction reactions Can have 2 or 3 electrodes Stirred or unstirred solution Measure current or voltage
17 In all electrochemical methods, the rate of oxidation & reduction depend on: 1) rate & means by which soluble species reach electrode surface (mass transport) 2) kinetics of the electron transfer process at electrode surface (electrode kinetics), which depend on: a) nature of the reaction b) nature of electrode surface c) temperature (we don t have much control over #2)
18 Concentration polarization Reaction is A + e - P Diagram for diffusion Before power is turned on the analyte (A) is at its maximum concentration throughout the solution Product (P) is zero throughout
19 Fick s Laws describe diffusion 1 st Law Where J = flux of material i.e., moles passing a 1 cm 2 plane at point x & time t (mol/cm 2 /sec) D = diffusion coefficient (cm 2 /sec) C = concentration t = time (sec) from when power is turned on x = distance from electrode surface (cm)
In all electrochemical methods, the rate of oxidation & reduction depend on: 1) rate & means by which soluble species reach electrode surface (mass
Voltammetry Methods based on an electrolytic cell Apply potential or current to electrochemical cell & concentrations change at electrode surface due to oxidation & reduction reactions Can have 2 or 3
More informationReference electrode. Calomel electrode Hg in contact with Hg(I) chloride Ag/AgCl 15-2
Potentiometry Potential measurements of electrochemical cells Ion selective methods Reference electrode Indicator electrode Potential measuring device Reference electrode Indicator electrodes Ion specific
More informationUnit 2 Electrochemical methods of Analysis
Unit 2 Electrochemical methods of Analysis Recall from Freshman Chemistry: Oxidation: Loss of electrons or increase in the oxidation number Fe 2 e - Fe 3 Reduction: Gain of electrons or decreases in the
More informationCh. 14. ELECTRODES AND POTENTIOMETRY
Ch. 14. ELECTRODES AND POTENTIOMETRY 14.1 Analytical chemists design electrodes (voltage sensitive to conc. change) galvanic cells ion-selective electrodes ion-sensing field effect transistors potentiometry
More informationChemistry Instrumental Analysis Lecture 22. Chem 4631
Chemistry 4631 Instrumental Analysis Lecture 22 Measures potential under very low currents. The cell is 2 half cells. Consist of a reference electrode, indicator electrode, and potential measuring device.
More informationChem 321 Lecture 17 - Potentiometry 10/24/13
Student Learning Objectives Chem 321 Lecture 17 - Potentiometry 10/24/13 Electrodes The cell described in the potentiometric chloride titration (see 10/22/13 posting) consists of a Ag/AgCl reference electrode
More informationELECTROCHEMICAL TECHNIQUES, OSMOMETRY AND THE PRINCIPLES OF RADIOACTIVITY
ELECTROCHEMICAL TECHNIQUES, OSMOMETRY AND THE PRINCIPLES OF RADIOACTIVITY ELECTROCHEMISTY ELECTROCHEMISTRY IS THE STUDY OF CHEMICAL REACTIONS THAT RESULT IN THE FLOW OF ELECTRONS (CURRENT) OR THE DEVELOPMENT
More informationChapter 7 Electrochemistry
Chapter 7 Electrochemistry Outside class reading Levine: pp. 417 14.4 Galvanic cells: pp. 423 14.5 types of reversible electrodes 7.6.1 Basic concepts of electrochemical apparatus (1) Electrochemical apparatus
More informationChapter 14: Electrodes and Potentiometry
Yonsei University Chapter 14: Electrodes and Potentiometry The use of electrodes to measure voltages that provide chemical information is called potentiometry (ion-selective electrode, ion-sensing field
More informationElectro Analytical Methods
CH 2252 Instrumental Methods of Analysis Unit II Electro Analytical Methods Dr. M. Subramanian Associate Professor Department of Chemical Engineering Sri Sivasubramaniya Nadar College of Engineering Kalavakkam
More informationCHAPTER 14: ELECTRODES AND POTENTIOMETRY
CHAPTER 14: ELECTRODES AND POTENTIOMETRY Chapter 14 Electrodes and Potentiometry Potentiometry : The use of electrodes to measure voltages that provide chemical information. (The cell voltage tells us
More informationChapter 3 Electrochemical methods of Analysis-Potentiometry
Chapter 3 Electrochemical methods of Analysis-Potentiometry Electroanalytical chemistry Contents Introduction Galvanic and electrolytic cells Salt bridge Electrode potential and cell potential Indicator
More informationInstrumental Chemical Analysis. Dr. Abdul Muttaleb Jaber Professor Faculty of Pharmacy Philadelphia University Fall 2012/2013
0510212 Instrumental Chemical Analysis Dr. Abdul Muttaleb Jaber Professor Faculty of Pharmacy Philadelphia University Fall 2012/2013 Chapter 1 Electroanalytical Methods Electroanalytical Chemistry Electroanalytical
More informationCHM 213 (INORGANIC CHEMISTRY): Applications of Standard Reduction Potentials. Compiled by. Dr. A.O. Oladebeye
CHM 213 (INORGANIC CHEMISTRY): Applications of Standard Reduction Potentials Compiled by Dr. A.O. Oladebeye Department of Chemistry University of Medical Sciences, Ondo, Nigeria Electrochemical Cell Electrochemical
More informationn. log a ox a red
Amperometry &Voltammetry Non-equilibrium electrochemistry! Based on Electrolytic Cells---apply external voltage to pair of electrodes to force rxn to occur--get current flow---current α [conc] o E elect
More informationChemistry 112 Name Exam III Form A Section April 2,
Chemistry 112 Name Exam III Form A Section April 2, 2013 email IMPORTANT: On the scantron (answer sheet), you MUST clearly fill your name, your student number, section number, and test form (white cover
More informationPotentials and Thermodynamics of Cells (Ch. 2)
Potentials and Thermodynamics of Cells (Ch. 2) Basic Electrochemical Thermodynamics: potential vs. chemical information Reversibility Free energy Half-potential and cell potential Nernst equation Electrochemical
More informationElectrolytic processes Notes
Edexcel GCSE Chemistry Topic 3: Chemical changes Electrolytic processes Notes 3.22 Recall that electrolytes are ionic compounds in the molten state or dissolved in water When an ionic substance is melted
More informationChapter 18 Electrochemistry. Electrochemical Cells
Chapter 18 Electrochemistry Chapter 18 1 Electrochemical Cells Electrochemical Cells are of two basic types: Galvanic Cells a spontaneous chemical reaction generates an electric current Electrolytic Cells
More informationElectrical Conduction. Electrical conduction is the flow of electric charge produced by the movement of electrons in a conductor. I = Q/t.
Electrical Conduction e- in wire e- out Electrical conduction is the flow of electric charge produced by the movement of electrons in a conductor. The rate of electron flow (called the current, I, in amperes)
More informationChapter 21. Potentiometry
Chapter 21 Potentiometry 1 Potentiometric methods Potentiometric methods of analysis are based on measuring the potential of electrochemical cells without drawing appreciable currents. Applications: Determine
More informationChem 1120 Pretest 3 Sprin 2015
Name: Class: Date: Chem 1120 Pretest 3 Sprin 2015 Multiple Choice Identify the choice that best completes the statement or answers the question. Chapter 19 Values The following equilibrium constants will
More informationF- Cl- Br- I- CN- S2- NO3-
Middle of the 60 s First ISE for fluoride Na+ K+ Ag+ Ca2+ NH + 4 Cu2+ Pb2+ F- Cl- Br- I- CN- S2- NO3- Environment Food industry and agriculture Medecine, pharmaceutical, cosmetics Power plants Fluoride
More information2. Which of the following statements best describes the movement of electrons in an electrochemical cell?
Exam 2 Chem 311 Evans Fall 2009 112: 2 pts each 1. Consider the following unbalanced redox equation: Pb (s) + PbO 2 (s) + 2 HSO 4 (aq) 2 PbSO 4 (s) Which species is being oxidized? A. HSO 4 B. Pb(s) C.
More informationMass transfer by migration & diffusion (Ch. 4)
Mass transfer by migration & diffusion (Ch. 4) Mass transfer equation Migration Mixed migration & diffusion near an electrode Mass transfer during electrolysis Effect of excess electrolyte Diffusion Microscopic
More informationChapter 22. Bulk Electrolysis: Electrogravimetry and Coulometry. Definition. Features of Bulk Electrolysis Cells
Chapter 22 Bulk Electrolysis: Electrogravimetry and Coulometry Definition Bulk Electrolysis deals with methods that involve electrolysis producing a quantitative change in oxidation state Example: In a
More informationMETHODS FOR DETERMINATIONS OF ELECTROLYTES AND BLOOD GASES
METHODS FOR DETERMINATIONS OF ELECTROLYTES AND BLOOD GASES ELECTROCHEMISTRY Basic principle Electrodes are used to selectively measure particular ions Instruments utilizing electrodes measure the potential
More informationUnit 2 B Voltammetry and Polarography
Unit 2 B Voltammetry and Polarography Voltammetric methods of Analysis What is Voltammetry? A time-dependent potential is applied to an electrochemical cell, and the current flowing through the cell is
More informationGalvanic cells. Galvanic cells (2) Alessandro Giuseppe Antonio Anastasio Baron Volta. John Frederic Daniell
A quote of the week (or camel of the week): I have no special talents. I am only passionately curious Albert Einstein Physical Chemistry EPM/7 1 Galvanic cells Galvanic cells are devices permitting direct
More informationName: Regents Chemistry Date:
Name: Date: 1. The reaction CuO + CO CO 2 + Cu is an example of (A) reduction, only (B) oxidation, only (C) both oxidation and reduction (D) neither oxidation nor reduction 6. In which compound does chlorine
More informationChemistry 51 Chapter 8 TYPES OF SOLUTIONS. Some Examples of Solutions. Type Example Solute Solvent Gas in gas Air Oxygen (gas) Nitrogen (gas)
TYPES OF SOLUTIONS A solution is a homogeneous mixture of two substances: a solute and a solvent. Solute: substance being dissolved; present in lesser amount. Solvent: substance doing the dissolving; present
More informationIf you like us, please share us on social media. The latest UCD Hyperlibrary newsletter is now complete, check it out.
Sign In Forgot Password Register username username password password Sign In If you like us, please share us on social media. The latest UCD Hyperlibrary newsletter is now complete, check it out. ChemWiki
More informationChapter 18. Solubility and Complex- Ionic Equilibria
Chapter 18 Solubility and Complex- Ionic Equilibria 1 The common ion effect Le Chatelier Why is AgCl less soluble in sea water than in fresh water? AgCl(s) Ag + + Cl Seawater contains NaCl 2 Problem: The
More informationELECTROCHEMISTRY OXIDATION-REDUCTION
ELECTROCHEMISTRY Electrochemistry involves the relationship between electrical energy and chemical energy. OXIDATION-REDUCTION REACTIONS SPONTANEOUS REACTIONS Can extract electrical energy from these.
More information11.3. Electrolytic Cells. Electrolysis of Molten Salts. 524 MHR Unit 5 Electrochemistry
11.3 Electrolytic Cells Section Preview/ Specific Expectations In this section, you will identify the components of an electrolytic cell, and describe how they work describe electrolytic cells using oxidation
More informationBasic Concepts in Electrochemistry
Basic Concepts in Electrochemistry 1 Electrochemical Cell Electrons Current + - Voltage Source ANODE Current CATHODE 2 Fuel Cell Electrons (2 e) Current - + Electrical Load ANODE Current CATHODE H 2 2H
More informationChem 321 Lecture 16 - Potentiometry 10/22/13
Student Learning Objectives Chem 321 Lecture 16 - Potentiometry 10/22/13 In lab you will use an ion-selective electrode to determine the amount of fluoride in an unknown solution. In this approach, as
More informationELECTROCHEMISTRY. Oxidation/Reduction
ELECTROCHEMISTRY Electrochemistry involves the relationship between electrical energy and chemical energy. OXIDATION-REDUCTION REACTIONS SPONTANEOUS REACTIONS Examples: voltaic cells, batteries. NON-SPONTANEOUS
More informationWe can use chemistry to generate electricity... this is termed a Voltaic (or sometimes) Galvanic Cell
Unit 6 Electrochemistry Chemistry 020, R. R. Martin Electrochemistry Electrochemistry is the study of the interconversion of electrical and chemical energy. We can use chemistry to generate electricity...
More informationCambridge IGCSE Chemistry. Topic 5: Electricity and chemistry. Notes.
Cambridge IGCSE Chemistry Topic 5: Electricity and chemistry Notes Define electrolysis as The breakdown of an ionic compound, molten or in aqueous solution, by the passage of electricity Describe the electrode
More informationChapter 25. Voltammetry
Chapter 5. Voltammetry Excitation Signal in Voltammetry Voltammetric Instrumentation Hydrodynamic Voltammetry Cyclic Voltammetry Pulse Voltammetry High-Frequency and High-Speed Voltammetry Application
More information11.1. Galvanic Cells. The Galvanic Cell
Galvanic Cells 11.1 You know that redox reactions involve the transfer of electrons from one reactant to another. You may also recall that an electric current is a flow of electrons in a circuit. These
More informationElectrochemistry (Galvanic and Electrolytic Cells) Exchange of energy in chemical cells
Electrochemistry (Galvanic and Electrolytic Cells) Exchange of energy in chemical cells Oxidation loss of electrons (oxidation number increases) OIL RIG Reduction gain of electrons (oxidation number decreases)
More informationCHEM 10123/10125, Exam 3
CHEM 10123/10125, Exam 3 April 4, 2012 (50 minutes) Name (please print) Please box your answers, and remember that significant figures, phases (for chemical equations), and units do count! 1. (18 points)
More informationDr. Anand Gupta
By Dr Anand Gupta Mr. Mahesh Kapil Dr. Anand Gupta 09356511518 09888711209 anandu71@yahoo.com mkapil_foru@yahoo.com Electrochemistry Electrolysis Electric energy Chemical energy Galvanic cell 2 Electrochemistry
More informationHomework 11. Electrochemical Potential, Free Energy, and Applications
HW11 Electrochemical Poten!al, Free Energy, and Applica!ons Homework 11 Electrochemical Potential, Free Energy, and Applications Question 1 What is the E for Zn(s) Zn (aq) Ce (aq) Ce (aq) + cell + 4+ 3+
More information8. ELECTROCHEMICAL CELLS. n Electrode Reactions and Electrode Potentials a. H 2 2H + + 2e. Cl 2 + 2e 2Cl. H 2 + Cl 2 2H + + 2Cl ; z = 2
8. ELECTROCHEMICAL CELLS n Electrode Reactions and Electrode Potentials 8.1. a. H H + + e Cl + e Cl H + Cl H + + Cl ; z = E = E RT F ln ( a H +a Cl ) b. Hg(l)+ Cl Hg Cl + e H + + e H Hg + H + + Cl Hg Cl
More informationElectroanalytical Chemistry techniques covered to date
Electroanalytical Chemistry techniques covered to date Potentiometry based on galvanic cell Controlled Potential Electrolysis electrolytic Chronoamperometry electrolytic cell Chronopotentiometry electrolytic
More information#13 Electrochemical Cells
#13 Electrochemical Cells If a copper strip is placed in a solution of copper ions, one of the following reactions may occur: Cu 2+ + 2e - Cu Cu Cu 2+ + 2e - The electrical potential that would be developed
More informationSolutions & Solubility: Net Ionic Equations (9.1 in MHR Chemistry 11)
Solutions & Solubility: Net Ionic Equations (9.1 in MHR Chemistry 11) 1 Solubility vs. Temperature 2 Solubility Table Anions SOLUBILITY Table 8.3 page 363 in MHR Cl Br I S OH SO CO 3 PO 3 SO 3 C 2 H 3
More informationElectroanalytical methods
Electroanalytical methods G. Galbács Electrochemical methods In electrochemical methods of instrumental analysis, one measures voltage (potential) and/or current signals. A variety of electrochemical methods
More informationA solution is a homogeneous mixture of two or more substances.
UNIT (5) SOLUTIONS A solution is a homogeneous mixture of two or more substances. 5.1 Terminology Solute and Solvent A simple solution has two components, a solute, and a solvent. The substance in smaller
More informationChapter 11. Electrochemical Methods. In Chapter 10 we examined several spectroscopic techniques that take advantage of the.
Chapter 11 Electrochemical Methods Chapter Overview Section 11A Overview of Electrochemistry Section 11B Potentiometric Methods Section 11C Coulometric Methods Section 11D Voltammetric and Amperometric
More informationStandard reduction potentials are established by comparison to the potential of which half reaction?
HW10 Electrochemical Poten al, Free Energy, and Applica ons This is a preview of the draft version of the quiz Started: Nov 8 at 5:51pm Quiz Instruc ons Question 1 What is the E for cell + 4+ 3+ Zn(s)
More informationElectrochemistry. Redox reactions. Half Reactions. Nernst Equation Ion selective electrodes
Electrochemistry Nernst Equation Ion selective electrodes Redox reactions oxidation - loss of electrons M n+ M n+1 + e - M is oxidized - reducing agent reduction - gain of electrons N n+ + e - N n-1 N
More informationCHAPTER 5 REVIEW. C. CO 2 D. Fe 2 O 3. A. Fe B. CO
CHAPTER 5 REVIEW 1. The following represents the process used to produce iron from iron III oxide: Fe 2 O 3 + 3CO 2Fe + 3CO 2 What is the reducing agent in this process? A. Fe B. CO C. CO 2 D. Fe 2 O 3
More information4.1 Introduction. 4.2 Redox Reaction. Rules for calculating oxidation Number
4.1 Introduction Electrochemistry is that branch of chemistry which deals with the study of production of electricity from energy released during spontaneous chemical reactions and the use of electrical
More informationChapter 20 Electrochemistry
Chapter 20 Electrochemistry 20.1 Oxidation States and Oxidation-Reduction Reactions An oxidation occurs when an atom or ion loses electrons. A reduction occurs when an atom or ion gains electrons. One
More information3/24/11. Introduction! Electrogenic cell
March 2011 Introduction Electrogenic cell Electrode/electrolyte interface Electrical double layer Half-cell potential Polarization Electrode equivalent circuits Biopotential electrodes Body surface electrodes
More informationPart One: Solubility Equilibria. Insoluble and slightly soluble compounds are important in nature and commercially.
CHAPTER 17: SOLUBILITY AND COMPLEX ION EQUILIBRIA Part One: Solubility Equilibria A. Ksp, the Solubility Product Constant. (Section 17.1) 1. Review the solubility rules. (Table 4.1) 2. Insoluble and slightly
More informationComplex equilibria and calculations of formation constants from potentiometric data
Experiment 8: /Ag 2 Based Ion elective Electrode Determination of Lead/Hydroxide Equilibria While lead hydroxide does not give a good quantitative measure of lead, particularly in the presence of competing
More informationThe way to do these is to write out both as reductions and then from info given see which is the anode --it will have the most negative E
Homework solutions the half cell with the more -ve E will be the anode The way to do these is to write out both as reductions and then from info given see which is the anode --it will have the most negative
More informationChemistry Instrumental Analysis Lecture 18. Chem 4631
Chemistry 4631 Instrumental Analysis Lecture 18 Oxidation/Reduction Reactions Transfer of electrons in solution from one reactant to another. Ce +4 + Fe +2 Ce +3 + Fe +3 Ce +4 and Fe 3+ Fe 2+ and Ce 3+
More informationPart II: Self Potential Method and Induced Polarization (IP)
Part II: Self Potential Method and Induced Polarization (IP) Self-potential method (passive) Self-potential mechanism Measurement of self potentials and interpretation Induced polarization method (active)
More informationElectrochemical Cells
CH302 LaBrake and Vanden Bout Electrochemical Cells Experimental Observations of Electrochemical Cells 1. Consider the voltaic cell that contains standard Co 2+ /Co and Au 3+ /Au electrodes. The following
More informationInstrumental Analysis
1 Instrumental Analysis Classification of Analytical Techniques Introduction Instrumental analysis is a field of analytical chemistry that investigates analytes using scientific instruments. Advantages
More informationReactions in Aqueous Solutions
Copyright 2004 by houghton Mifflin Company. Reactions in Aqueous Solutions Chapter 7 All rights reserved. 1 7.1 Predicting if a Rxn Will Occur When chemicals are mixed and one of these driving forces can
More informationINDIVIDUAL EXAM INDIVIDUAL WUCT 2018
INDIVIDUAL EXAM WUCT 2018 60 minutes are allotted for the individual round. Questions on the individual exam will consist of multiple parts that must each be answered with numerical results or short answers.
More informationPart One: Introduction. a. Chemical reactions produced by electric current. (electrolysis)
CHAPTER 19: ELECTROCHEMISTRY Part One: Introduction A. Terminology. 1. Electrochemistry deals with: a. Chemical reactions produced by electric current. (electrolysis) b. Production of electric current
More informationElectrochemistry. (Hebden Unit 5 ) Electrochemistry Hebden Unit 5
(Hebden Unit 5 ) is the study of the interchange of chemical energy and electrical energy. 2 1 We will cover the following topics: Review oxidation states and assigning oxidation numbers Redox Half-reactions
More informationIntroduction to electrochemistry
Introduction to electrochemistry Oxidation reduction reactions involve energy changes. Because these reactions involve electronic transfer, the net release or net absorption of energy can occur in the
More informationSpecial Lecture Series Biosensors and Instrumentation
!1 Special Lecture Series Biosensors and Instrumentation Lecture 2: Introduction to Electrochemistry Electrochemistry Basics Electrochemistry is the study of electron transfer processes that normally occur
More informationELECTROCHEMISTRY Chapter 14
ELECTROCHEMISTRY Chapter 14 Basic Concepts: Overview of Electrochemical Process at Constant T, P (14-1) ΔG = ΔG o + RT ln Q = w elec (maximum) = qe = ItE (exp) (E intensive parameter, q extensive) = nfe
More informationCh 17 Solubility Equilibria. Brown & LeMay
Ch 17 Solubility Equilibria Brown & LeMay When a typical ionic solid is dissolved in water that dissolved material can be assumed to be present as separate hydrated anions & cations. For example: CaF 2
More informationNa+ K+ Ag+ Ca2+ NH + 4. F- Cl- Br- I- CN- S2- NO3-
1 1 HISTORY 2 Middle of the 60 s First ISE for fluoride Na+ K+ Ag+ Ca2+ NH + 4 Cu2+ Pb2+ F- Cl- Br- I- CN- S2- NO3- Until the 60 s the only ISE is in fact the ph electrode with a glass sensitive to protons.
More informationChapter Four. Chapter Four. Chemical Reactions in Aqueous Solutions. Electrostatic Forces. Conduction Illustrated
1 Electrostatic Forces 2 Chemical Reactions in Aqueous Solutions Unlike charges (+ and ) attract one another. Like charges (+ and +, or and ) repel one another. Conduction Illustrated 3 Arrhenius s Theory
More informationExam3Fall2009thermoelectro
Exam3Fall2009thermoelectro Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. 1. Thermodynamics can be used to determine all of the following EXCEPT
More informationFig. Electrochemical Cell/ Potentiometric Titration
Fig. Electrochemical Cell/ Potentiometric Titration The accurate, precise and effective potentiometric measurements can be made with the help of the following two types of electrodes namely : REFERENCE
More informationChapter 18 Electrochemistry
Chapter 18 Electrochemistry Definition The study of the interchange of chemical and electrical energy in oxidation-reduction (redox) reactions This interchange can occur in both directions: 1. Conversion
More informationChapter 13 POTENTIOMETRIC ELECTRODES AND POTENTIOMETRY
Chapter 13 POTENTIOMETRIC ELECTRODES AND POTENTIOMETRY POTENTIOMETRIC ELECTRODES AND POTENTIOMETRY Ch.13 In this chapter Understand the concept of the various types of electrodes that can be used for measuring
More informationChapter 17: Additional Aspects of Aqueous equilibria. Common-ion effect
Chapter 17: Additional Aspects of Aqueous equilibria Learning goals and key skills: Describe the common ion effect. Explain how a buffer functions. Calculate the ph of a buffer solution. Calculate the
More information470 Lecture #7 of 18
Lecture #7 of 18 470 471 Q: What s in this set of lectures? A: Introduction, Review, and B&F Chapter 1, 15 & 4 main concepts: Section 1.1: Redox reactions Chapter 15: Electrochemical instrumentation Section
More informationCh 7 Chemical Reactions Study Guide Accelerated Chemistry SCANTRON
Ch 7 Chemical Reactions Study Guide Accelerated Chemistry SCANTRON Name /80 TRUE/FALSE. Write 'T' if the statement is true and 'F' if the statement is false. Correct the False statments by changing the
More informationChem Midterm 4 May 14, 2009
Chem. 101 - Midterm 4 May 14, 009 Name All work must be shown on the exam for partial credit. Points will be taken off for incorrect or no units and for the incorrect number of significant figures. Only
More informationOXIDATION/REDUCTION REACTIONS
OXIDATION/REDUCTION REACTIONS An oxidation/reduction reaction is one in which electrons are transferred from one reactant to another. An example is the oxidation of iron(ii) ions by cerium(iv) ions: Ce
More informationChapter 24. Electrogravimetry and Coulometry
Chapter 24 Electrogravimetry and Coulometry Dynamic Electrochemical Methods of analysis Electrolysis Electrogravimetric and Coulometric Methods For a cell to do any useful work or for an electrolysis to
More informationExperiment 8 - Double Displacement Reactions
Experiment 8 - Double Displacement Reactions A double displacement reaction involves two ionic compounds that are dissolved in water. In a double displacement reaction, it appears as though the ions are
More informationCh. 13 Fundamentals of Electrochemistry
Ch. 13 Fundamentals of Electrochemistry 13.1 13-1. Basic Concepts of electrochemistry redox reaction : reactions with electron transfer oxidized : loses electrons reduced : gains electrons Fe 3+ + V 2+
More informationChapter 19. Solubility and Simultaneous Equilibria p
Chapter 19 Solubility and Simultaneous Equilibria p. 832 857 Solubility Product ) The product of molar concentrations of the constituent ions, each raised ot the power of its stoichiometric coefficients
More informationElectrochemical System
Electrochemical System Topic Outcomes Week Topic Topic Outcomes 8-10 Electrochemical systems It is expected that students are able to: Electrochemical system and its thermodynamics Chemical reactions in
More informationConductivity of Electrolytes in Solution
Conductivity of Electrolytes in Solution Introduction: Electrical current can be thought of as the movement of electrons or ionic charges from an area of high potential to an area of low potential. Materials
More information11-1 Notes. Chemical Reactions
11-1 Notes Chemical Reactions Chemical Reactions In a chemical reaction 1 or more substances (the reactants) change into 1 or more new substances (the products). Reactants are always written on the left
More informationLesson on Electrolysis
Lesson on Electrolysis This lesson package includes a lesson plan, a worksheet for students, and teachers notes on the worksheet. Activity Lesson 1 (50 min-2 Period lesson) Teacher explains (page 1 to
More informationCHEM 116-Dr. Babb s Sections Answer Key to Lecture Problem Sheet Questions for Chapters 20, 21, and 23.
CHEM 116-Dr. Babb s Sections Answer Key to Lecture Problem Sheet Questions for Chapters 20, 21, and 23. 199. First complex: Co(NH 3 ) 6 Cl 3 + 3 AgNO 3 > Co(NH 3 ) 6 +3 + 3 AgCl(s); the three Cl - are
More informationAcid-Base Equilibria and Solubility Equilibria
Acid-Base Equilibria and Solubility Equilibria Acid-Base Equilibria and Solubility Equilibria Homogeneous versus Heterogeneous Solution Equilibria (17.1) Buffer Solutions (17.2) A Closer Look at Acid-Base
More informationLecture 12: Electroanalytical Chemistry (I)
Lecture 12: Electroanalytical Chemistry (I) 1 Electrochemistry Electrochemical processes are oxidation-reduction reactions in which: Chemical energy of a spontaneous reaction is converted to electricity
More informationSolubility Equilibria
Chapter 17 SOLUBILITY EQUILIBRIA (Part II) Dr. Al Saadi 1 Solubility Equilibria The concept of chemical equilibrium helps to predict how much of a specific ionic compound (salt) will dissolve in water.
More informationOxidation Numbers, ox #
Oxidation Numbers, ox # are or numbers assigned to each or assuming that the are transferred from the electronegative element to the electronegative element. now mimic systems. ox # are written followed
More informationElectrochemistry. The study of the interchange of chemical and electrical energy.
Electrochemistry The study of the interchange of chemical and electrical energy. Oxidation-reduction (redox) reaction: involves a transfer of electrons from the reducing agent to the oxidizing agent. oxidation:
More informationKENYA NATIONAL EXAMINATION COUNCIL REVISION MOCK EXAMS 2016 TOP NATIONAL SCHOOLS MANG U SCHOOL CHEMISTRY PAPER 2 TIME: 2 HOURS
KENYA NATIONAL EXAMINATION COUNCIL REVISION MOCK EXAMS 2016 TOP NATIONAL SCHOOLS MANG U SCHOOL CHEMISTRY PAPER 2 TIME: 2 HOURS SCHOOLS NET KENYA Osiligi House, Opposite KCB, Ground Floor Off Magadi Road,
More information